So, I have a BlockingQueue which I'm filling up with data (from many threads). I want to aggregate this data into buckets of, say 1000, then pass them off to somewhere else. So I have written a thread class which polls the end of the queue, and when it has enough elements, it sends off the aggregated data.
I expected to find something in java.util.concurrent to help more with this. The only way I can see to do this through java.util.concurrent would be to have every insertion to the queue add a runnable to task which would then add to an aggregating set, but this seems really inefficient to me.
With the threads polling the queue strategy, say I have 5 threads, each thread can aggregate in local memory (order is not really important), and then pass off. The queue and the destination are the only touch points for contention -- 1 thread can poll off a blocking queue at a time. The destination is probably not ever going to be in contention.
With the task-based approach, using an Executor, all the threads will be sharing an aggregation point, so that will be constantly in contention, not to mention synchronized/concurrent variations of collections are slower.
Seems obvious to just have a few threads always polling the BlockingQueue. The downside is now I need to write all their starts, stops, I'll need to handle the case that a thread dies, etc. This all seems like boilerplate I'd expect to find in java.util.concurrent or maybe an apache library.
Am I really that far off the reservation? A class to just always have x threads running and restart them if they fail? Is there another obvious (performant) approach that I'm just not seeing?